Lavatory accessory

ABSTRACT

An accessory intended to be added to an existing toilet aids personal hygiene by providing a cleansing jet of either water, or water plus a liquid soap fluid, to provide a cleansing and washing action to a person following use of the toilet. Water plus a medicated fluid may also be provided to relieve discomfort from hemorhoids or other rectal ailments. An outlet head is provided with a venturi tube that draws the liquid soap into the water spray. A valve mechanism is provided to control both the water spray output and the secondary fluid output. In another embodiment, the hygenic cleansing jet is provided and a douche capability is also provided. An additional source of medicated fluid is connected for mixing with the water. In this embodiment, the valve mechanism employs a second internally arranged venturi tube which provides low pressure to draw the medicated fluid into the douche output. The douche embodiment can be further adapted for use as enema.

BACKGROUND OF THE INVENTION

The present invention relates to an accessory for use with aconventional toilet and, more specifically, relates to an apparatus forwashing and promoting personal hygiene following use of the toilet.

The maintenance of personal hygiene is always of utmost importance.Different cultures around the world achieve this in different fashions.One approach to such personal hygiene involves the use of a bidet thatprovides water to cleanse one's self. While washing with water is bothhealthful and promotes hygiene, as well as providing a generallycomforting and overall soothing feeling, it is not a common practice inthe United States. The common practice being the use of a paper product,i.e., toilet tissue. The use of soap and water to wash one's self is farsuperior to the use of dry paper, both hygienically and economically.Nevertheless, washing with soap and water is not overly popular, andthis is due in no small part to the somewhat more complicated methodthat must now be followed to accomplish this.

In a not unrelated problem, there are numerous sufferers of variousrectal and anal ailments, such as hemorrhoids. These persons usuallyutilize some medication for relief from the symptoms of these ailments.A sitz bath is the most usually recommended and widely acceptedtreatment of rectal, vaginal, and related disorders, such ashemorrhoids, fissures, and irritations. It has always been aninconvenient and impractical procedure to take a sitz bath in the home.

Similarly, female douching generally involves filling and supportingwater bags and the use of costly solutions, or purchasing expensivedisposable single-use bottles.

SUMMARY OF THE INVENTION

The present invention provides an accessory for use with existingtoilets that provides a cleansing and washing action to the personfollowing use of the toilet. The accessory is attached to the bottomsurface of the existing toilet seat and is connected to a source of warmwater by means of a flexible, easily installed conduit. A valve isprovided to control the on-off operation of the water flow, and a jetprovides a stream of warm water.

The present invention also provides a source of secondary fluid that maybe mixed with the water, this secondary fluid being a medication, asoap, a lotion or the like. The source of the secondary fluid isconnected through a separate on-off valve to the inventive mixing sprayhead that draws the secondary fluid from its source and adds it to thewarm water being expelled by the spray nozzle. This secondary fluid maybe perfumed to provide a deodorizing function. When the secondary fluidis not used, the stream of water can be aerated.

The present invention also contemplates the use of an additionalaccessory for use as a female douche. This embodiment uses a standarddouche nozzle, and the fluid may be either plain water or any desiredsolution drawn from a third fluid source. The inventive apparatus forproviding the douche function can be further modified to provide anenema function.

The system of the present invention is intended to be an "add-on" thatcan be easily installed in a relatively short time using only commonlyfound hand tools. In one embodiment, the connection to the existingwater pipes can be easily made with "saddle" valves and, in anotherembodiment, the water connection can be made directly to an existingfaucet.

Therefore, it is an object of the present invention to provide alavatory accessory for aiding and improving personal hygiene.

It is another object of the present invention to provide a lavatoryaccessory having a valved connection to a water supply and a valvedconnection to a secondary supply of medicated liquid or the like,wherein the two fluids are mixed in a specialized venturi head device.

It is a further object of the present invention to provide a lavatoryaccessory that may be installed on an existing toilet and issubstantially hidden from view.

It is still a further object of the present invention to provide alavatory accessory having a valved connection to a water supply and avalved connection to a secondary supply of a medicated fluid or thelike, wherein the two fluids are mixed for providing a female douche.

It is also on object of the present invention to provide a lavatoryaccessory having a valved connection to a water supply and a valvedconnection to a secondary supply of a medicated liquid or the like,wherein the two fluids are mixed for providing an enema function.

The manner in which these and other objects are accomplished by thepresent invention will be made clear from the following detaileddescription of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of the present invention having beeninstalled beneath a conventional toilet seat, a portion of which isshown in phantom;

FIG. 2 is a cross-sectional view of the valve assembly of FIG. 1 takenalong section lines 2--2;

FIG. 3 is a cross-sectional view of the inventive mixing spray headtaken along section lines 3--3 of FIG. 1.

FIG. 4 is a perspective view of an embodiment of the control valveassembly of the present invention having means for use as a douche;

FIG. 5 is a cross-sectional view of the valve assembly of FIG. 4 takenalong section lines 5--5.

FIG. 6 is a cross-sectional view of the valve assembly of FIG. 4 takenalong section lines 6--6 and

FIG. 7 is a perspective view, in exploded form, of a bracket and bottleassembly forming part of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows an embodiment of the present invention 10 arranged in itsoperable position affixed on the bottom surface of a conventional toiletseat, a portion of which is shown in phantom at 12. The inventiveassembly 10 may be affixed to the bottom of the toilet seat bydouble-backed tape or by a number of screws, shown typically at 14. Thecontrol valve assembly 16 of the invention resides outside the perimeterof the seat and the mixing head 18 resides approximately along thecenterline of the seat at the rear thereof and in such a fashion as toremain substantially hidden from view. The control valve assembly 16 hastwo actuating members, the control buttons to which are seen at 20 and22. The operation of these controls will be explained in detail inrelation to FIG. 2, however, at this point it can be stated that thesetwo actuating members control the warm water flow and the secondary ormedicated fluid flow. These control buttons 20, 22 are adjustable tocontrol the extent or pressure of the fluid flow. Specifically,connected to the control valve assembly 16 is a warm water line 24,which may comprise conventional flexible polypropylene tubing or thelike, that is connected to the body of the valve 16 by means of a brasscompression fitting, not shown in FIG. 1. The secondary fluid ormedicated fluid is connected to the valve by a similar flexible plastictubing 26 by pushing the plastic tubing 26 on over a fitting having anenlarged end. This will be seen hereinbelow. The warm water line 24 canbe connected through a conventional temperature-controlling mixing valve(not shown) to the hot and cold water lines always available in thetypical bathroom. The connections to the hot and cold water lines can bemade with commercially available self-piercing saddle valves. In theevent a permanent installation is not desired or is not feasible, thewater connection may be made directly to the existing faucet by aflexible hose and a diverter valve placed on the end of the faucet.

The spray head 18 is connected to the supply inlets 24 and 26, throughthe control valve assembly 16, by means of two fluid conduits locatedinside an elongate element 30. This element 30 has a flat upper surfacefor easy attachment to the bottom surface of the toilet seat 12. Theextent of those fluid conduits will be shown in more detail hereinbelow,however, the actual fluid path is represented in FIG. 1 by dashed lines,specifically, the fluid path for the warm water is represented by dashedline 32, and the fluid path for the secondary fluid is represented bydashed line 34. The present invention also contemplates the substitutionof relatively flexible tubing for the elongate element 30. In thatembodiment the valve assembly 16 is affixed to the outer periphery ofthe seat 12 and the spray heat 18 is affixed to the seat 12independently. The two fluid connections, corresponding to 30, 32, aremade by the flexible tubing that can be cut to length, based on thedimensions of the seat 12.

The operation of the control valve assembly 16 is such that afterconnecting the two fluid-supply lines, 24 and 26, to the appropriatefluid supplies, and depressing button 22 downwardly, warm water isexpelled from the head 18, specifically, from outlet jet 36. The head 18is constructed so that the expelled water will be in a narrow stream.Additionally, means are provided for precisely aiming the stream offluid so that only a minimal amount of drying is required following use.Upon depressing the button 20 for the secondary fluid actuating member,while the warm water is being expelled, the specialized head 18 causesthe secondary fluid to be drawn through fluid path 34 and conduit 26 andmixed with the warm water as it is ejected from the jet 36. The sprayhead 18 is constructed with an internally arranged venturi tube thatcreates a low pressure sufficient to draw the secondary fluid throughsupply conduit 26 and fluid path 34 to the spray head 18. This venturiconstruction will be shown in detail in FIG. 3. When it is desired tocease spraying the fluids, the opposite ends of buttons 20, 22 arepushed upward to close the valve. Because the flow of warm water throughthe spray head 18 is necessary for the flow of the secondary fluid,pressing upwardly on the opposite end of button 22 (not shown) will stopall spraying.

If button 22 is depressed, or on, and button 20 is not depressed, oroff, the venturi tube in the head 18 will still provide a suction. Thisis utilized in the present invention to aerate the expelled liquidstream. An aeration aperture 38 is provided in the body 40 of the valveassembly 16 to function in connection with the button 20 for thesecondary fluid, that is, when no secondary fluid is being used, air ispermitted to enter aperture 38 and aerate the output stream. It is wellknown that aeration of a fluid will lessen splashing, thereby reducingthe amount of drying necessary following use.

Referring to FIG. 2, a cross-section of the control valve assembly 16shows its operable elements in detail. The valve assembly 16 has a valvebody 40 formed from a solid block of material, either metal or plastic,or it can be injection molded in two pieces, with the halves ultimatelyassembled. The valve body 40 has two similar valve bores, one of whichis seen at 42. Residing within each valve bore is a slidable valvemember. Valve member 44 is slidably arranged in valve bore 42 and has adiameter somewhat smaller than the valve bore 42. Valve bore 42 has aninlet passage 46 and an outlet passage 48, both formed in the valve body40. The inlet passage 46 is connected to the warm water conduit by abrass fitting 50. The outlet passage 48 is connected to the elongateelement 30 and, specifically, to the internal fluid passage 32 thereinby a nipple 51. Valve member 44 has a reduced diameter portion 52 that,when aligned between the inlet 46 and outlet 48, places these twopassages in fluid communication.

The control of fluid flow through the control valve assembly 16 isaccomplished by vertical sliding movement of the valve member 44, whichhas the reduced diameter portion 52 that interconnects the inlet passage46 to the outlet passage 48. In the "ON" position, as shown in FIG. 2,the button 22 is threaded onto a threaded portion of the upper end ofthe slidable valve element 44 in order to control the extent of fluidflow and has been depressed, thereby aligning the reduced diameterportion 52 between the inlet passage 46 and the outlet passage 48. Thisfeeds the warm water to the head 18. When it is desired to stop the flowof the fluid, button 54, which corresponds to button 20 and is locatedat the other end of valve element 44, is pressed, thereby sliding thevalve element 44 upwardly, moving the reduced diameter portion 52 out ofalignment between the inlet passage 46 and the outlet passage 48, andbreaking the fluid path. In the "OFF" position, with valve element 44 inthe up position, a major diameter portion 56 of element 44 is alignedwith the inlet passage 46 and is sealed in the bore 42 at that positionby O-ring seals 58 and 60. This portion 56 and the O-ring seals, 58 and60, above and below the inlet 46, effectively prevent any fluid flow.When the valve is in the "ON" position, the two O-ring seals 58 and 60,prevent leakage between the valve element 44 and the lower portion ofthe bore 42 and a third O-ring seals the upper end of valve element 44and the upper end of the bore 42.

In the relationship shown in FIG. 2 among the valve element 44, thereduced diameter portion 42, the inlet 46, and the O-ring seals 58, 60,it is possible to adjust the extent or amount of fluid passed throughthe valve by partially blocking the inlet 46 with the valve element 44,thereby controlling the pressure of the fluid expelled by the jet 36.This can be accomplished by moving the valve element 44 through onlypart of its possible travel. By adjusting the button 22, which acts as astop against the top of the valve block 40, in relation to the valveelement 44 the extent of travel thereof can be adjusted. Specifically,one end 64 of valve element 44 is externally threaded and button 22 isdrilled out and internally tapped, as shown at 66. The length of thethreaded end 64 and the depth of the tapped hold 66 are chosen so thatenough adjustment is possible to cause a portion of element 44 topartially occlude inlet 46. The fit between the threaded and tappedelements, 64 and 66, can be snug enough so that the parts stay in theiradjusted position, or a jam nut or lock nut can be employed to hold theadjustment through repeated operations of the valve element 44.

FIG. 3 shows the inventive head 18 of FIG. 1 in cross-section takenalong lines 3--3 in FIG. 1. The end of the flat dual conduit 30 isconnected to the head 18, and the outline thereof is shown by the dashed30. Similarly, the two fluid conduits, 32 for the warm water and 34 forthe secondary fluid, are also shown by dashed lines. The head 18 may bemade of any inert rigid material, either metal or plastic. A throughaperture 68 connects the warm water conduit 32 with a first fluidpassage 70 that turns into a second fluid passage 72. This second fluidpassage 72 terminates in a tapered portion, shown typically at 74, whichtapers down to a fluid passage section 76 of reduced diameter withrespect to fluid passage 70 and 72. The downstream end of this reduceddiameter fluid passage section 76 then feeds into a flared portion 78.The flared portion 78 is formed at the upstream end of an exit portion80 of the fluid conduit and terminates in the outlet jet assembly 36.

The reduced diameter portion 76 of the water flow passage operates as aventuri in the well-known fashion and, thus, produces a low pressurezone at that reduced diameter. As is know, a venturi tube is a short,straight pipe section between two tapered sections. The local pressurevaries in the vicinity of this constriction and, by attaching anadditional tube to this straight pipe section, it is possible to drawfluids into the main stream. Generally speaking, this is the way inwhich an internal combustion engine carburetor operates. In the case ofthe present invention, a short reduced diameter fluid passage 82 isconnected to the venturi tube 76, and this leads to a secondary fluidpassage 84, which is connected by a through aperture 86 to the secondaryfluid conduit 32 formed in the flat dual conduit element 30.

The outlet jet assembly 36 includes a movable ball 88 that has a throughpassage 90 formed therein. It is through this passage 90 that the outletstream is expelled. The ball 88 is rotatably mounted so that outletstream can be directed precisely to the desired location. The ball 88 ismounted to two O-ring seals, 92 and 94, that permit the ball 88 torotate while providing a fluid-tight seal. The ball 88 can be adjustedthrough an angle of approximately 15° by inserting a pointed object orwire into the passage 90 and rotating the ball to direct the jet asnecessary. The ball 88 and O-rings 92, 94 may be retained in the head bya ring 96 of suitable construction.

FIG. 3 shows one manufacture of the inventive head 18 that isparticularly appropriate for prototype or small volume production. Inthis manufacture, the fluid passages are bored into the main block orelement forming the head and then the unused portions of the bores areplugged accordingly. The main fluid passage 70 may be bored from the topand then a plug 97 inserted to seal the end of the passage. Similarly,the main conduit for the secondary fluid flow 84 can also be bored fromthe top and then plugged with an appropriate plug 98. The passage 72which has the tapered portion 74 leading into the venturi tube 76 mayalso be bored from the side and then plugged with a plug 99. In order toprovide flared portion 76, this may be also bored from the front with atapered tool after first boring out the venturi passage 76. Thepreferred manufacture of head 18 would involve injection molding thehead in two pieces with all passages fully formed and then assemblyingthe two halves.

In operation, upon depressing the warm water control button 22 waterflows into and through the valve assembly 16, through the water conduit34, and flows through aperture 68, down passages 70 and 72 through theventuri tube 76 and is expelled at the jet 36. The passage of waterthrough the venturi tube 76 causes a pressure drop in the reduceddiameter tube section 82 and, thus, in the secondary fluid passage 84.This low pressure zone proceeds through aperture 86 to secondary fluidconduit 32 so that, when the secondary fluid button 20 is depressed,atmospheric pressure will force the secondary fluid from the secondaryfluid conduit 32 to the low-pressure zone. The continuing low pressurefrom the venturi tube 76 will cause the secondary fluid and the warmwater to be mixed therein and ultimately expelled together through thejet assembly 36.

FIG. 4 shows another embodiment of the present invention that has anadditional hygenic function. Specifically, in addition to the warm waterflow and secondary fluid source, this embodiment provides a douchecapability. Specifically, warm water is fed into a control valveassembly 100 on line 102 as in the previous embodiment, and a secondarysource, such as medicated fluid or the like, is connected on line 104.These two fluids function with the fluid control elements operated bybuttons 106 and 108, respectively, in the fashion that the embodimentshown in FIGS. 1, 2, and 3 operates. Again, the buttons utilize meansfor adjusting the output fluid pressure. Briefly stated, by depressingboth buttons 106 and 108, a mixture of warm water and a fluid from thesecondary source (not shown) is expelled by the venturi head 18. In theembodiment of FIG. 4, an additional control element is provided and hasassociated with it button 110. This control element directs the flow ofwarm water from conduit 102 to a hose 112 to which is attached astandard douche bone 114. Additionally, a tertiary source of fluid (notshown) is connected by a conduit 116 to the valve assembly 100. Thevalve assembly 100 is provided with an internal venturi tube so that themedicated fluid in the tertiary source is mixed with the water expelledat the douche bone 114.

Thus, in operation of the embodiment of FIG. 4, assuming all controlbuttons 106, 108, 110 are in the up or off position, button 110 isdepressed and the warm water from conduit 102 is expelled through thedouche bone 114. If a tertiary fluid supply is connected to conduit 116,the action of a venturi tube in the control valve assembly 100 willcause this fluid to be mixed with the warm water at the venturi tube andthe mixture expelled at the douche bone 114.

The present invention also provides the capability to function as anenema. This can be achieved by substituting an enema nozzle (not shown)for the douche bone 114. This is easily accomplished by a threadedfitting (not shown) at the end of hose 112.

Referring to FIG. 5, the control valve assembly 100 is shown in partialcross section. Specifically, the cross-section is taken through theportion of the control valve assembly 100 that controls the additionaldouching functions. As indicated, buttons 106 and 108 and theircorresponding valve elements function in this embodiment exactly as didthese elements in the embodiment described in FIGS. 1, 2, and 3. In FIG.5, buttons 106 and 108 are represented in their off or unactuatedposition and, thus, no fluids can be expelled from the head 18. Button110 has been depressed and, thus, warm water from the conduit 102 isflowing through the hose 112. All buttons involve the threadedconnections with the slidable valve elements to permit adjustment offluid pressure. Hose 112 and conduit 102 are connected via control valveassembly 100 and, specifically, through a reduced diameter portion 120formed in a slidable valving element 122. Valving element 122 issubstantially identical to the other valving elements, i.e., it is acylindrical element having a control button 110, 123 at either end andthe reduced diameter portion 102. Valving element 122 is sealed in afluid-tight manner in bore 124 formed in the main valve block 126 bythree O-rings 128, 129, and 130, in the same manner as the assembly ofFIG. 2. The main water inlet in the control valve assembly 100 is seenin part at 132 and is connected to the warm water conduit 102 by athreaded brass compression fitting 134. The reduced diameter portion 120in the slidable valve member 122 can be aligned between inlet passage132 and a fluid conduit passage 136, which leads to a reduced diameterfluid passage 138 having a tapered portion 140 feeding into a reduceddiameter section 142 that acts as a venturi tube. The exit of theventuri tube 142 is a flared portion 144. The fluid then flows into amain fluid channel 146 and out into the hose 112.

Hose 112 is connected to the control valve assembly 100 by a taperedconnector 148. This tapered connector 148 has a three degree taper tofacilitate attachment of hose 112. The inner bore of connector 148 isnot straight but is flared outwardly as a continuation of flared portion144, thereby completing the flared section needed for the venturi tube142 to function. The venturi tube 142 provides a lower pressure relativeto atmospheric when the water is flowing therethrough, under the controlof valve element 122, and this draws in fluid from the tertiary sourceon tube 116, shown in FIG. 6.

Referring to FIG. 6, a cross section is taken along lines 6--6 of FIG. 4in order to show internally the control valve assembly 100. The venturitube 142 is shown in FIG. 6., as is the outlet connector 148, and aninlet connector 150, to which the tertiary fluid supply line 116 isconnected. The fluid conduit passage 136 appears as an aperture uponlooking into the bore of the passage and this feeds the reduced diameterfluid passage 138 and the tapered portion 140. As in the embodimentshown with respect to the spray head of FIG. 3, then the preferred massproduction technique would involve injection molding the valve body intwo pieces and then assembling the halves. The construction as shown inFIG. 6 is appropriate for a prototype, wherein the venturi tube may behad by boring holes in the block of material forming the body 126 of thevalve assembly 100 and then subsequently providing plugs to seal off theportion of the bore not utilized. In that regard, the chamber 138 isreduced in diameter by means of a tube 152 inserted into the originalbore.

In operation of the embodiment of FIGS. 4, 5, and 6, the control buttons106 and 108 are placed in their off position and control button 110 isplaced in its on position, thereby permitting warm water to flow fromconduit 102 through the inlet passage 132 and the interconnectingpassage 120 in valve member 122, through passages 136 and 138, throughventuri tube 142 and out into hose 112. Because the venturi tube 142causes a low pressure in the vicinity of the reduced diameter,atmospheric pressure forces liquid from the tertiary fluid supply (notshown) through tube 116 to mix with the warm water in the valve body andbe fed out in hose 112.

What I claim is:
 1. A lavatory accessory for use with a toilet having aseat, a bowl, and a water source, comprising:a secondary fluid source; amanually operable fluid valve means having a first inlet and outletcorresponding to the water source and a second inlet and outletcorresponding to said secondary fluid source; first and second fluidconduit means connecting the water source and said secondary fluidsource to the corresponding first and second inlets of said valve means;head means having a water inlet and a secondary fluid inlet bothconnected through internally arranged fluid passages to an outlet jetformed therein; third and fourth conduit means connecting said first andsecond outlets of said valve means to the corresponding inlets of saidhead means; and said fluid passages in said head means including aventuri tube between said water inlet and said outlet jet, for forming alow pressure zone thereat upon passage of water therethrough, said fluidpassages further including a passage connecting said secondary fluidinlet in said head means to said venturi tube, whereby secondary fluidis drawn from said secondary fluid source, mixed with the water andexpelled from said outlet jet.
 2. The lavatory accessory of claim 1,wherein said third and fourth conduit means comprise a rigid elongateunitary element having internally arranged first and second fluid pathsand formed having at least one planar surface.
 3. The lavatory accessoryof claim 2, further comprising means for attaching said rigid elongateunitary element to the toilet seat, whereby said at least one planarsurface is adjacent the bottom surface of the toilet seat, said elongateunitary element being of a length such that said head means is centrallylocated at the rear of the opening in the seat.
 4. The lavatoryaccessory of claim 2, wherein said valve means is rigidly attached toone end of said rigid elongate unitary element and said spray head meansis rigidly attached to the other end of said rigid elongate unitaryelement.
 5. The lavatory accessory of claim 1, further comprising meansfor attaching said manually operable fluid valve means to the bottomsurface of the seat and arranged at the periphery thereof and means forattaching said head means to the bottom surface of the seat and arrangedso that said head means is centrally located at the rear thereof.
 6. Thelavatory accessory of claim 1, wherein said valve means includes firstand second manually operable valve elements slidably arranged in a valvebody and being selectively operable to connect said water inlet to thecorresponding outlet and said secondary fluid inlet to the correspondingoutlet.
 7. The lavatory accessory of claim 1, wherein said secondaryfluid source comprises a bottle having a flange at the neck thereof andfurther comprising secondary source support means having a planarsurface for mounting said support means on a vertical surface and abifurcated element cooperating with said flange of said bottle, wherebyupon mounting said support means on said vertical surface, the neck ofthe bottle is placed in the bifurcated element and supported by theflange.
 8. The lavatory accessory of claim 1, wherein said outlet jetcomprises a movable ball having a through passage in fluid communicationwith the outlet of said venturi tube and being sealingly arranged insaid head means.
 9. The lavatory accessory of claim 8, wherein saidmovable ball is sealingly arranged in said head means by rubber O-rings.10. The lavatory accessory of claim 8, wherein said through passage insaid movable ball is dimensioned so that said movable ball can berotated at least 15° and remain in fluid communication with the outletof said venturi tube.
 11. Apparatus for use with a toilet seat having abowl and a seat, comprising:head means having first and second inlets influid communication with an outlet jet; a source of water underpressure; a source of a second fluid; fluid conduit means connectingsaid water source to said first inlet and said head means and saidsecond fluid source to said second fluid inlet of said head means; andsaid head means including an internally arranged venturi tube means inthe fluid path between said first inlet and said outlet jet for creatinga low-pressure zone thereat when water flows through said venturi tubemeans, and a fluid passage connecting said second inlet to said lowpressure zone at said venturi tube means, whereby said water and saidsecond fluid are mixed and expelled from said outlet jet in said headmeans.
 12. The apparatus of claim 11, further comprising manuallyoperable valve means having first and second inlets connected to saidwater source and said source of a second fluid and corresponding firstand second outlets connected between said fluid conduit means and saidsource of water and said source of a second fluid.
 13. The apparatus ofclaim 11, wherein said conduit means comprises a rigid element having atleast one flat surface and including means for attaching said conduitmeans to the toilet seat with said flat surface adjacent the bottomsurface of the toilet seat.
 14. The apparatus of claim 11, wherein saidsource of a second fluid comprises a bottle having a flange at the neckthereof, and further comprising support means having at least one planarsurface for mounting said support means on a substantially verticalsurface and a forked element cooperating with said flange of saidbottle, whereby upon mounting said support means on said verticalsurface, the neck of the bottle is placed in the forked element andsupported by the flange.
 15. The apparatus of claim 11, wherein saidoutlet jet comprises a movable ball having a through passage in fluidcommunication with the outlet of said venturi tube and being sealinglyarranged in said head means.
 16. The apparatus of claim 15, wherein saidmovable ball is sealingly arranged in said head means by rubber O-rings.17. The apparatus of claim 8, wherein said through passage in saidmovable ball is dimensioned so that said movable ball can be rotated atleast 15° and remain in fluid communication with the outlet of saidventuri tube.
 18. Apparatus for use with a toilet having a seat andbowl, and a source of water under pressure, comprising;valving andmixing means having a first inlet connected to the water source and asecond inlet connected to a first source of medicated fluid and havingfirst and second fluid outlets said first inlet connected through firstand second internal fluid passages to said first and second fluidoutlets and said second inlet connected through a third fluid passage tosaid second fluid passage; a first fluid output means connected to saidfirst fluid outlet of said valving and mixing means and including meansfor arranging said first fluid output means on the bottom surface of theseat and to the rear of the opening therein; a second fluid output meansconnected through a flexible fluid conduit to said second fluid outletof said valving and mixing means; and said valving and mixing meanshaving a first manually operable valve means for controlling the flow ofwater out of said first fluid output means, a second operable valvemeans for independently controlling the flow of water out of said secondfluid output means, said second internal fluid passage including aventuri tube through which the pressurized water flows, thereby creatinga localized low-pressure zone, and said third fluid passage connected tosaid venturi tube, whereby said secondary fluid is drawn into and mixedwith the water in said second fluid passage in said valving and mixingmeans and is expelled through said second fluid output means.
 19. Theapparatus of claim 18, further comprising:a second source of medicatedfluid connected to a third input of said valving and mixing means; saidvalving and mixing means having a third fluid outlet corresponding tosaid third input and having a third operable valve means for controllingthe output of said third fluid outlet; said first output means having asecond inlet connected to said third fluid outlet and said first andsecond inlets being connected by internal fluid passages, said firstoutput means internal fluid passages including a second venturi tubethrough which the water flows for forming a low pressure zone thereat,said second inlet is connected by a fourth internal fluid passage tosaid second venturi tube, whereby fluid from said second source is drawnthrough said third inlet of said valving and mixing means and isexpelled from said first fluid output means.
 20. The apparatus of claim19, wherein said valving and mixing means further includes a thirdmanually operable valve means for controlling the flow of fluid fromsaid third fluid outlet.
 21. The apparatus of claim 18, wherein saidsecond fluid output means comprises a douche bone.
 22. The apparatus ofclaim 18, wherein said second fluid output means comprises an enemanozzle.
 23. The apparatus of claim 18, wherein said means for arrangingsaid first fluid output means includes a flat elongate rigid elementconnected to said first fluid output means and said valving and mixingmeans and further including internal fluid conduit for making the fluidconnection therebetween.
 24. The apparatus of claim 18, wherein saidfirst source of medicated fluid comprises a bottle having a flange atthe neck thereof and further comprising support means having a planarsurface for mounting said support means on a substantially verticalsurface and a bifurcated element cooperating with said flange on saidbottle, whereby said bottle is supported.
 25. The apparatus of claim 19,wherein said second source of medicated fluid comprises a bottle havinga flange at the neck thereof, and further comprising support meanshaving a planar surface for mounting said support means on asubstantially vertical surface and a bifurcated element cooperating withsaid flange on said bottle, whereby said bottle is supported.
 26. Theapparatus of claim 19, wherein said first output means further comprisesan outlet jet for expelling fluid and includes a movable ball having athrough passage in fluid communication with the outlet of said venturitube and being sealingly arranged in said first output means.
 27. Theapparatus of claim 26, wherein said movable ball is sealingly arrangedin said first output means by rubber O-rings.
 28. The apparatus of claim26, wherein said through passage in said movable ball is dimensioned sothat said movable ball can be rotated at least 15° and remain in fluidcommunication with the outlet of said venturi tube.